KR100677960B1 - The Choke Coil for Magnetron - Google Patents

Abstract

The present invention relates to a filter for removing noise of a magnetron. The choke coil for a magnetron according to the present invention includes a condenser for reducing noise of a magnetron and a filter circuit having a plurality of choke coils. And a portion formed by a single layer winding, and a portion connected to the capacitor is inserted into a core and composed of a plurality of layers.

According to the present invention, when using the method of setting the length of the choke coil copper wire in the noise removal by the choke coil of the noise canceling filter of the conventional magnetron, there is a problem that the EMI margin in the low frequency band is low By applying the choke coil having a double winding structure, the effect of increasing the attenuation characteristics in the low frequency band is expected.

Magnetron, Choke Coil, EMI Margin

Description

Choke Coil for Magnetron {The Choke Coil for Magnetron}

1 is a structural diagram showing a structure of a noise canceling filter of a magnetron having a conventional choke coil;

2 is a structural diagram showing a structure of a noise canceling filter of a magnetron having a conventional improved choke coil;

FIG. 3 is a diagram illustrating a result of measuring radiation noise of a magnetron to which the choke coil of FIG. 2 is applied. FIG.

4 is a circuit diagram showing a low pass filter by a choke coil and a through capacitor.

5 is a structural diagram showing the structure of the choke coil according to the present invention.

6 is a view showing the results of measuring the radiation noise of the magnetron to which the choke coil according to the present invention is applied.

<Brief description of the main parts of the drawing>

1 ferrite core 2 choke coil

3: through-type capacitor 4: cathode

5: stem ceramic 6: filter case

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a choke coil for a magnetron in which a noise reduction filter of a magnetron, in particular, increases the EMI (elecromagnetic interference) margin in the low frequency band by adjusting the length of the copper wire of the choke coil of the noise removing filter. .

The noise canceling filter of the conventional magnetron is shown in FIG. 1, and FIG. 1 is a structural diagram showing the structure of the noise canceling filter of the magnetron having the conventional choke coil.

Referring to FIG. 1, a box-shaped filter case 6 is inserted into the housing, and a stem ceramic 5 attached to a soldered solder to maintain a vacuum seal is provided with two leads supporting the cathode 4 in the tube. It is penetrated through the stem ceramics and kept in a vacuum seal and soldered.

In addition, the choke coil 2 is fixed to each of the terminals, and the other end thereof is connected to the through capacitor 3, and the choke coil 2 has a form surrounding the ferrite core 1.

Since the noise cancellation filter of the magnetron having the above configuration lacks attenuation characteristics, the problem has been improved in the conventional way by determining the length of the copper wire of the choke coil 2.

The conventional noise canceling filter device of the magnetron to which the improved choke coil is applied is the same as that of FIG. 2, and FIG. 3 is a diagram illustrating a result of measuring emission noise characteristics of the magnetron to which the improved choke coil of FIG. 2 is applied.                         

Referring to Figures 2 and 3, the conventional improved choke coil is determined by the length of the copper wire differently from the existing choke coil to enlarge the attenuation characteristics are insufficient. Accordingly, it could have an improved noise canceling effect having the EMI margin characteristics of FIG.

Referring to FIG. 3, when the standard signal characteristic (a) is compared with the measured signal (b), the EMI band may be insufficient in the low frequency band, and thus the specification may not be satisfied due to the deviation of the magnetron and the microwave oven.

In order to solve the above problems, the present invention uses the structure of the conventional choke coil as a double winding structure to determine the appropriate number of turns and the position of the double winding, thereby expanding the EMI margin in the low frequency band, noise in the high frequency band It is an object of the present invention to provide choke coils for magnetrons that can minimize deterioration characteristics.

Choke coils for magnetrons according to the present invention,

In the filter circuit having a condenser and a plurality of choke coils for noise reduction of the magnetron, a portion to which the cathode is connected is formed of a core and a single layer winding, and a portion connected to the capacitor is formed of a plurality of layers with a core inserted therein. It is done.

Preferably, the plurality of layers of the portion in which the core is inserted are wound around 3 to 5 turns toward the cathode, starting with the through-type condenser side.

Hereinafter, with reference to the accompanying drawings as follows.

Figure 4 is a circuit diagram showing a low pass filter by the choke coil and the through-type condenser, Figure 5 is a structural diagram showing the structure of the choke coil according to the present invention, Figure 6 is a radiation noise of the magnetron to which the choke coil according to the present invention is applied It is a figure which shows the result of measuring.

4, 5, and 6, in order to improve the attenuation characteristics of the low frequency band in the conventional choke coil structure, as shown in FIG. The attenuation characteristics of the low frequency band can be improved by increasing the inductance _{L in the} made choke coil Z _L.

It can be determined according to the following equation (1) which increases the inductance.

----------------(1)

----------------(One)

; 페라이트의 투자율, N; 턴수, A; 단면적, l; 코일길이><

; Ferrite permeability, N; Turns, A; Cross-sectional area, l; Coil Length>

)을 증가시키는 방법과; 코일의 단면적을 증가시키는 방법과; 코일의 턴수를 증가시키는 방법이 있다. As shown in equation (1), in order to increase the inductance (L), the permeability of the ferrite core (

Increase the); Increasing the cross-sectional area of the coil; There is a method of increasing the number of turns of the coil.

In the case of increasing the magnetic permeability, the magnetron operating temperature is high temperature of 200 ℃ or more, and the material with higher permeability than the current material is limited to the material that can be used because the temperature that can maintain the permeability characteristics is lower than the magnetron operating temperature It is.

In addition, in the case of the method of increasing the cross-sectional area of the coil, since the method of increasing the cross-sectional area is limited in the size of the filter itself, it is also impossible to realize because increasing the area of the choke coil is limited by the filter size.

Finally, in the case of the method of increasing the number of turns of the coil, increasing the number of turns of the coil can not be increased beyond the conventional improved type because there is a limit condition to secure a safety distance due to the operation of the magnetron at high pressure.

Therefore, in the present invention, the coil winding is doubled as a method capable of increasing the inductance L while satisfying the above operating temperature and safety distance.

At this time, when configuring the coil of the double winding structure, the inductance (L) increases but also the capacitance (C) between the windings increases.

When the capacitance C is increased, the attenuation characteristic of the low frequency band is improved, and the attenuation characteristic of the high frequency band is deteriorated.

Therefore, when the coil winding of the present invention is doubled, it is important to determine the number of turns of the double winding and the part to be double wound for the productivity of the coil shape production.

Therefore, it is most effective to increase the attenuation characteristics of the low frequency band, determine the number of turns three to five times so that the attenuation characteristics of the high frequency band hardly differ, and perform the winding position from the end of the capacitor side coil into which the core is inserted. to be.

The portion where the cathode is connected to meet the above conditions is formed by a concentric portion and a single layer winding, and the portion into which the core is inserted is formed by a double winding structure, wherein the position of the double winding of the double coil is determined from the end of the coil on the capacitor side. The attenuation characteristics of the choke coils for magnetrons formed at the number of turns of 3 to 5 turns are shown in FIG. 6, as shown in the signal (c) of FIG. 6. Compared with, the attenuation characteristic in the low frequency band is increased without exceeding the standard signal a, and the attenuation characteristic in the high frequency band is almost unchanged.

As described above, the choke coil for the magnetron according to the present invention is a method in which a conventional magnetron increases the inductance of the choke coil used for the noise removing filter to increase the attenuation characteristic of the low frequency band, and the choke coil of the double winding structure In this case, the number of turns of the double winding is determined 3 to 5 times, and the position is performed from the end of the coil of the condenser side to increase the attenuation characteristic of the low frequency band, minimize the deterioration characteristic of the high frequency band, and manufacture the coil shape. It is expected that the productivity can be improved.

Claims (2)

In the filter circuit having a condenser and a plurality of choke coils for noise reduction of the magnetron, a portion to which the cathode is connected is formed of a core and a single layer winding, and a portion connected to the capacitor is formed of a plurality of layers with a core inserted therein. Choke Coils for Magnetrons 2. The choke coil for magnetron according to claim 1, wherein the core is inserted into the condenser and the portion composed of a plurality of layers is wound in a 3 to 5 turns toward the cathode portion.

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